Slab Square Poki 3 is a regular weight, normal width, low contrast, upright, normal x-height font.
Keywords: headlines, posters, signage, labels, packaging, industrial, technical, retro, utilitarian, authoritative, impact, clarity, mechanical feel, retro utility, signage readiness, squared, blocky, slab-serif, rounded corners, sturdy.
A sturdy slab-serif design built from squared forms with subtly rounded outer corners. Strokes are mostly monolinear, with a consistent, mechanical rhythm and flat, rectangular serifs that read as bold and supportive. Counters tend toward rectangular apertures, and curves are rendered as boxy, softened corners rather than true ovals, giving letters like O/Q and C/G a squared, engineered feel. Spacing appears even and pragmatic, with clear separation and a solid, compact color in text.
Works well for headlines and short-to-medium text where a firm, technical voice is desired, such as posters, signage, labels, packaging, and interface elements with an industrial theme. The sturdy slabs and squared counters keep forms distinct at display sizes and hold up well in bold graphic compositions.
The overall tone feels industrial and technical, with a retro display flavor reminiscent of stenciled signage, equipment labeling, or early digital/engineering aesthetics. Its blocky geometry and assertive slabs project reliability and directness rather than delicacy.
The design appears intended to merge slab-serif solidity with a square, engineered construction, prioritizing consistency, impact, and a utilitarian readability. Its softened corners temper the strict geometry, suggesting a deliberate balance between mechanical precision and approachable clarity.
Distinctive squared bowls and terminals give the font a strong modular identity across capitals, lowercase, and numerals. The uppercase set is especially architectural, while the lowercase maintains the same boxy construction, producing a consistent, no-nonsense texture in paragraphs. Numerals follow the same squared, slabbed logic, supporting data-forward layouts.